It has been over ten years since the development of cultured skin substitutes or CSSs. CSSs consist of cultured epidermis from the patients and dermal fibroblasts that can form a good epidermal layer. However, CSSs do not form hair follicles or sebaceous glands which makes for mighty dry skin. Therefore, it is highly preferable to make at skin substitute that can form such epidermal appendages.
Fortunately the skin possesses several types of stem cells for use in regenerative medicine. Epidermal stem cells (Epi-SCs) in the basal layer of the epidermis that constantly provide new cells to the epidermis (the uppermost layer of the skin). Unfortunately, adult Epi-SCs cannot form hair follicles, but they can if they are combined with embryonic or newborn dermal cells. Dermal papilla (DP) cells can induce hair follicles, but the availability of DP cells has greatly limited work with them. Adult dermal skin also contains multipotent SKPs or skin-derived precursors. Injection of SKPs underneath the skin of mice, leads to the induction of new hair follicles (Biernaskie et al., 2009, Cell Stem Cell 5:610-623). This suggests that SKPs might be applicable in a clinical setting to induce hair follicles in cultured skin substitutes.
A new paper by Yaojiong Wu and coworker from the Shenzhen Key Laboratory of Health Sciences and Technology, in collaboration with Edward E. Tredget from University College Dublin has successfully induced the growth of hair follicles and sebaceous glands in a cultured skin substitute. They combined cultured Epi-SCs and SKPs, from mice and humans, and embedded them into a hydrogel. These stem cell-embedded hydrogels were then implanted into immunodeficient mice with substantial skin wounds.
The results were remarkable. The implants able to induce the formation of new epidermis with hair follicles. Furthermore, when Epi-SCs and SKPs taken from human scalps were used in these experiments, they worked just as well as those taken from mice.
Additionally, when the ability of Epi-SCs to differentiate into sebaceous glands was examined, Wu and others showed that Epi-SCs can form the precursors to sebaceous glands, sebocytes. Additionally, the oils secreted by these Epi-SC-derived sebocytes were chemically similar to sebaceous glands from native skin.
Thus, a combination of Epi-SCs and SKPs from human or mouse skin were sufficient to generate newly formed hair follicles and functional sebaceous glands. These results provide knowledge that is potentially transferable to clinical applications for regenerating damaged skin.